Library of Congress |

Library of Congress

Matches in Library of Congress for { <http://lccn.loc.gov/2002066075> ?p ?o. }

Showing items 1 to 26 of 26 with 100 items per page.

2002066075 contributor B9235879.
2002066075 contributor B9235880.
2002066075 created "c2002.".
2002066075 date "2002".
2002066075 date "c2002.".
2002066075 dateCopyrighted "c2002.".
2002066075 description "Includes bibliographical references (p. [223]-228) and index.".
2002066075 description "Machine generated contents note: 1. Introduction 1 -- 11DistributedAdaptation. 2 -- 12 Assumptions 8 -- 13 Terminology 11 -- 14 Key Contributions of this Research 12 -- 15 Road map13 --2. Conductor: A New Approach 15 -- 21 The Conductor Approach. 15 -- 22 The Conductor Architecture. 19 -- 23 Key Challenges 21 -- 24 Potential Pitfalls of Distributed Adaptation 23 -- 25 Conclusions 23 --3. Stream Interceptionand Identification. 25 -- 31 Interception in Conductor 26 -- 32 Type Identification. 32 -- 33 An Example of Interception and Identification 35 -- 34 Conclusions 35 --4. Selecting and Deploying Distributed Adaptations 37 -- 41 Properties of a Good Solution. 38 -- 42 Criteria for Adaptor Selection. 39 -- 43 Approaches to Distributed Adaptor Selection. 40 -- 44 Conductor's Planning Architecture. 43 -- 45 Plan Formulation. 52 -- 46 The Cost of Automatic Planning. 58 -- 47 Conclusions 59 --5. Securing Distributed Adaptation 61 -- 51 Design of Conductor Security 63 -- 52 Authentication Schemes 70 -- 53 Attacks and Counter measures 77 -- 54 Multiple Security Schemes. 80 -- 55 Non-Enabled Client and Server. 87 -- 56 Applicability to Other Open Architectures. 88 -- 57 Implementation 89 -- 58 Conclusions 90 --6. Reliability for Distributed Adaptation 93 -- 61 A New Model of Reliability. 97 -- 62 Semantic Segmentation98 -- 63 Preventing Data Loss Despite Adaptation 100 -- 64 Protecting Adaptation from Failures. 104 -- 65 Handling Multiple Failures. 113 -- 66 Semantic Segmentation for Other Transport Protocols 116 -- 67 Round-Trip Reliability. 119 -- 68 Conclusions 121 --7. A daptor Construction 123 -- 71 Writing Conductor Adaptors. 123 -- 72 Sample Adaptations. 133 -- 73 Challenges in Adaptor Construction. 141 -- 74 Conclusions. 144 --8. External Interfaces 145 -- 81 Control of Application-Transparent Adaptation 145 -- 82 An API for Adaptation-Aware Applications. 147 -- 83 External Control of Adaptation-Aware Applications 157 -- 84 Conclusions 158 --9. Experiences with Conductor 159 -- 91 Experim ental Setup. 159 -- 92 Effectiveness of Conductor. 160 -- 93 Data Handling Overheads. 169 -- 94 The Cost of AutomaticPlanning. 172 -- 95 The Cost of Semantic Segmentation. 174 -- 96 The Cost of Failures 176 -- 97 The Cost of Security. 178 -- 98 Initial Deployment. 184 -- 99 Conclusions 189 --10. Related Work 191 -- 101 Adaptation 191 -- 102 Reliability 199 -- 103 Security 202 -- 104 Conclusions 204 -- 11. Future Work 205 --12. Conclusions. 211 -- 121 Summary of the Problem 211 -- 122 The Conductor Solution212 -- 123 Research Contributions 212 -- 124 Broad Lessons 214 -- 125 Final Comments215.".
2002066075 extent "xiii, 232 p. :".
2002066075 identifier "140207087X (alk. paper)".
2002066075 identifier 2002066075-d.html.
2002066075 identifier 2002066075.html.
2002066075 isPartOf "The Kluwer international series in engineering and computer science ; SECS 688".
2002066075 issued "2002".
2002066075 issued "c2002.".
2002066075 language "eng".
2002066075 publisher "Boston : Kluwer Academic Publishers,".
2002066075 subject "004.6 21".
2002066075 subject "Computer networks.".
2002066075 subject "Electronic data processing Distributed processing.".
2002066075 subject "Heterogeneous computing.".
2002066075 subject "Internetworking (Telecommunication)".
2002066075 subject "TK5105.5 .Y37 2002".
2002066075 tableOfContents "Machine generated contents note: 1. Introduction 1 -- 11DistributedAdaptation. 2 -- 12 Assumptions 8 -- 13 Terminology 11 -- 14 Key Contributions of this Research 12 -- 15 Road map13 --2. Conductor: A New Approach 15 -- 21 The Conductor Approach. 15 -- 22 The Conductor Architecture. 19 -- 23 Key Challenges 21 -- 24 Potential Pitfalls of Distributed Adaptation 23 -- 25 Conclusions 23 --3. Stream Interceptionand Identification. 25 -- 31 Interception in Conductor 26 -- 32 Type Identification. 32 -- 33 An Example of Interception and Identification 35 -- 34 Conclusions 35 --4. Selecting and Deploying Distributed Adaptations 37 -- 41 Properties of a Good Solution. 38 -- 42 Criteria for Adaptor Selection. 39 -- 43 Approaches to Distributed Adaptor Selection. 40 -- 44 Conductor's Planning Architecture. 43 -- 45 Plan Formulation. 52 -- 46 The Cost of Automatic Planning. 58 -- 47 Conclusions 59 --5. Securing Distributed Adaptation 61 -- 51 Design of Conductor Security 63 -- 52 Authentication Schemes 70 -- 53 Attacks and Counter measures 77 -- 54 Multiple Security Schemes. 80 -- 55 Non-Enabled Client and Server. 87 -- 56 Applicability to Other Open Architectures. 88 -- 57 Implementation 89 -- 58 Conclusions 90 --6. Reliability for Distributed Adaptation 93 -- 61 A New Model of Reliability. 97 -- 62 Semantic Segmentation98 -- 63 Preventing Data Loss Despite Adaptation 100 -- 64 Protecting Adaptation from Failures. 104 -- 65 Handling Multiple Failures. 113 -- 66 Semantic Segmentation for Other Transport Protocols 116 -- 67 Round-Trip Reliability. 119 -- 68 Conclusions 121 --7. A daptor Construction 123 -- 71 Writing Conductor Adaptors. 123 -- 72 Sample Adaptations. 133 -- 73 Challenges in Adaptor Construction. 141 -- 74 Conclusions. 144 --8. External Interfaces 145 -- 81 Control of Application-Transparent Adaptation 145 -- 82 An API for Adaptation-Aware Applications. 147 -- 83 External Control of Adaptation-Aware Applications 157 -- 84 Conclusions 158 --9. Experiences with Conductor 159 -- 91 Experim ental Setup. 159 -- 92 Effectiveness of Conductor. 160 -- 93 Data Handling Overheads. 169 -- 94 The Cost of AutomaticPlanning. 172 -- 95 The Cost of Semantic Segmentation. 174 -- 96 The Cost of Failures 176 -- 97 The Cost of Security. 178 -- 98 Initial Deployment. 184 -- 99 Conclusions 189 --10. Related Work 191 -- 101 Adaptation 191 -- 102 Reliability 199 -- 103 Security 202 -- 104 Conclusions 204 -- 11. Future Work 205 --12. Conclusions. 211 -- 121 Summary of the Problem 211 -- 122 The Conductor Solution212 -- 123 Research Contributions 212 -- 124 Broad Lessons 214 -- 125 Final Comments215.".
2002066075 title "Conductor : distributed adaptation for heterogeneous networks / by Mark D. Yarvis, Peter Reiher, Gerald J. Popek.".
2002066075 type "text".